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PETROLEUM ENGINEERING CALCULATOR

Deviated Well Design Calculator

Designed for Drilling Engineers & Petroleum Professionals

⚡ Instant Calculation 📐 Directional Drilling 📊 TVD & MD 🆓 Free Tool ✅ No Registration
Engineering Inputs
⛏️
Side Track Depth
Unit: ft
🎯
Target Depth
Unit: ft
📐
Horizontal Departure
Unit: ft
📈
Build Up Rate
Unit: deg/100ft
📊

Ready To Calculate

Enter engineering parameters. Results update automatically in real time.

📖 How to Use This Calculator
  1. Enter Side Track Depth
  2. Enter Target Depth
  3. Enter Horizontal Departure
  4. Enter Build Up Rate
  5. Review calculated results
📘 Deviated Well Design Guide

What is a Deviated Well Design?

A deviated well is intentionally drilled at an angle from vertical to reach a target location that cannot be efficiently accessed by a vertical well. Deviated wells are widely used in offshore, directional and extended reach drilling operations.

Proper deviated well design helps engineers determine the required build-up rate, tangent angle, true vertical depth (TVD), measured depth (MD), horizontal departure and radius of curvature needed to safely reach the planned target.

How is Build-Up Rate Used?

Build-up rate (BUR) describes how quickly the wellbore inclination changes and is usually expressed in degrees per 100 ft. A higher build-up rate produces a smaller radius of curvature, allowing the well trajectory to turn more rapidly.

Applications of Deviated Wells

  • Offshore platform drilling
  • Directional drilling
  • Extended reach drilling
  • Horizontal wells
  • Multi-well pad developments
  • Reservoir optimization
🧮 Formula & Example Calculation

Radius of Curvature Formula

The radius of curvature is calculated from the build-up rate:

R = 18000 / (π × BUR)

Where:

  • R = Radius of Curvature (ft)
  • BUR = Build-Up Rate (degrees per 100 ft)

Example Calculation

Given:

  • Side Track Depth = 1,500 ft
  • Target Depth = 10,000 ft
  • Horizontal Departure = 3,000 ft
  • Build Up Rate = 1.5°/100 ft

The calculator estimates the radius of curvature, tangent angle, TVD and total measured depth required to reach the target.

⚠️ Engineering Note

This calculator provides preliminary directional drilling estimates. Final well design should be verified using detailed trajectory planning software and company engineering standards.

❓ Frequently Asked Questions
What is this calculator used for?

This calculator helps petroleum engineers perform engineering calculations quickly and accurately for drilling, production, reservoir and facilities applications.

Are the results accurate?

Results are based on standard engineering formulas. Final engineering decisions should always be verified using company procedures, software and engineering judgement.

Is this calculator free?

Yes. Petrotopic engineering calculators are available free of charge for engineers, students and technical professionals.

Can I use these results for field operations?

Calculator results should be used as preliminary engineering estimates and must be independently verified before operational use.

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